SU642804A1 - Vibromotor - Google Patents

Description

The invention relates to the field of electrical engineering and can be used in electric motors using electromechanical transducers having piezoelectric characteristics to convert electrical energy into mechanical energy. A vibrating motor is known, comprising an electric oscillator, a rotor, and a piezoelectric transducer, which is made of piezo electric plates forming a triangle, which interact with us at the rotor, and the electrodes of each plate are connected to a three-phase electric oscillator fl. However, this vibromotor has a relatively low torque and is not reliable enough in operation. Piezoelectric transducers are attached at one end, and the mounting device undergoes forces that reduce the reliability of the motor. A vibromotor is also known, which contains a high-frequency voltage generator, a housing, a piezoceramic converter and a 2J rotor. The disadvantages of this device are the low rotor torque and reliability. The purpose of the invention is to increase the rotor torque and reliability. This is achieved by the fact that in the proposed device the body is made in the form of a glass, the bottom of which is tapered, and the rotor is made with resonators in the form of beveled plates arranged at an angle k of the tangent plane of the conical surface of the bottom of the body. installed at the top of the case. The drawing schematically depicts the described vibromotor. The vibration motor consists of a body 1, made in the form of a glass, the bottom 2 of which is made conical and the rotor 3 made with resonators in the form of beveled plates 4, interacting with the cone-shaped bottom of the body 1, at an angle to the tangential to this conical surface, the rotor 3 with mechanical connections are resiliently pressed to the conical chamfer of the annular piezoceramic

Converter 5 installed in the upper part of the housing 1.

The vibro motor works in the following way.

When a high-voltage electric signal is applied from the generator to the electrodes of the ring-shaped piezoelectric ceramic transducer 5, it begins to vibrate. In the places of contact of the upper part of the rotor

3c by a tapered facet of said piezotransducer 5. forces that are perpendicular to the conical chamfer arise, which cause the rotor 3 to vibrate in the axial direction. When the vibration of the rotor 3 he cone-shaped plates

4 impinges with a cone-shaped bottom 2 of body 1; Axial forces acting on the rotor .3 are decomposed into forces acting along the axis of said

legs 4 and on the forces repulsive to the said plates 4 rotating the rotor 3. When the latter occur, the rotor starts to rotate. The minimum number of resonators 4 in the form of oblique Hbix legs is three. The uniformity of rotation of the rotor 3 increases with increasing number of resonators.

The proposed vibromotor is simple in. design, relatively mgshogariten, is characterized by a high torque of the rotor to a high uniformity of its rotation, reliable in operation,

Claims (1)

1. USSR author's certificate No. 480875, cl. F16, H 17/00, 1971. 2, USSR Author's Certificate & 4,97611, cl. H 02 S 11/00, 1971. BUT